(asymmetrical in thickness path, width path, suppress the asymmetric mold flow.
(asymmetrical in thickness path, width direction, suppress the asymmetric mold flow. The magnetic field, the molten steel flow, along with the and rotating SEN) below the impact of FAC-EMBr have been studied using numerical simulations. level AZD4625 Ras fluctuation withmain conclusions have been(asymmetrical in thickness direction, width diasymmetrical SEN as follows: Therection, and rotating SEN) below the effect of FAC-EMBr were studied applying numerical 1. The magnetic field formed by the novel electromagnetic brake can correctly cover simulations. The mainthree important regions inside the mold, namely a molten steel jet flow effect region, an conclusions were as follows: 1.two.3.The magnetic field formed by the novel electromagnetic brake can properly cover intensity upper recirculation area, and a meniscus region, as well as the magnetic flux three important regions inside the covering regionsa molten steel decreased in sequence as well as the alter in inside the mold, namely is increased or jet flow effect region, an upper magnetic pole existing; recirculation region, and a meniscus region, and also the magnetic flux intensity in the two. covering regions Theincreased or lowered inimprove thealong with flow change in and near is FAC-EMBr can successfully sequence asymmetric the within the mold the narrow face triggered by the asymmetric arrangement of your SEN, can minimize the magnetic pole present; bias flow caused by the asymmetry, and can stabilize the fluctuation of steel/slag The FAC-EMBr can properly increase the asymmetric flow within the mold and near interface. the narrow face caused by the asymmetric arrangement surface SEN, can reduce the backflow The VP has an obvious brake effect around the of your velocity and the upper 3. bias flow triggered velocity asymmetry, plus the asymmetricthe fluctuationthe surface velocity and by the and can optimize can stabilize distribution of of steel/slag interface. the upper recirculation velocity caused by the asymmetric arrangement of the SEN. The HP can of course the surface velocity the the upper backflow The VP has an apparent brake impact onrestrain the velocity of andlower downwards flow and may optimize the asymmetric distribution on the surface velocity and caused by the velocity and may optimize the asymmetric distribution in the lower downwards velocity the asymmetric arrangement of SEN. upper recirculation velocity triggered by the asymmetric arrangement from the SEN. The HP can certainly restrain the velocity of the lower downwards flow and may optiAuthor Contributions: Investigation, Y.B., Z.L., J.W. and D.M.; writing–original draft preparation, mize the asymmetric distribution of your reduce downwards velocity brought on by the Z.L., Y.B., L.Z. and F.J.; project administration, Z.L.; and funding acquisition, Z.L. All authors have asymmetric arrangement of SEN. study and agreed to the published version with the manuscript.Funding: This study was funded by the National Organic Science Author Contributions: Investigation, Y.B., Z.L., J.W. and D.M.; writing–original Foundation of China, grant draft preparanumber 51804154, and by the College and University Scientific Pinacidil Protocol Research Projects in Liaoning Province, tion, Z.L., Y.B., L.Z., and F.J.; project administration, Z.L.; and funding acquisition, Z.L. All authors grant number L2020023. have read and agreed to the published version of your manuscript.Funding: This study was funded by the National Natural Science Foundation of China, grant report. number 51804154, and by the College and University Scientific Resear.